# data file for the Fltk User Interface Designer (fluid)
version 1.0110 
header_name {.h} 
code_name {.cc}
decl {//Copyright (c) 2002-2005 Nasca Octavian Paul} {} 

decl {//License: GNU GPL version 2 or later} {} 

decl {\#include <FL/Fl_Box.H>} {public
} 

decl {\#include <FL/fl_draw.H>} {public
} 

decl {\#include <FL/Fl_Value_Output.H>} {public
} 

decl {\#include <math.h>} {} 

decl {\#include <stdio.h>} {} 

decl {\#include <stdlib.h>} {} 

decl {\#include <string.h>} {} 

decl {\#include "../Synth/Resonance.h"} {public
} 

decl {\#include "WidgetPDial.h"} {public
} 

decl {\#include "PresetsUI.h"} {public
} 

class ResonanceGraph {open : {public Fl_Box}
} {
  Function {ResonanceGraph(int x,int y, int w, int h, const char *label=0):Fl_Box(x,y,w,h,label)} {} {
    code {respar=NULL;
cbwidget=NULL;
applybutton=NULL;} {}
  }
  Function {init(Resonance *respar_,Fl_Value_Output *khzvalue_,Fl_Value_Output *dbvalue_)} {} {
    code {respar=respar_;
khzvalue=khzvalue_;
dbvalue=dbvalue_;
oldx=-1;
khzval=-1;} {}
  }
  Function {draw_freq_line(float freq,int type)} {open
  } {
    code {float freqx=respar->getfreqpos(freq);
switch(type){
  case 0:fl_line_style(FL_SOLID);break;
  case 1:fl_line_style(FL_DOT);break;
  case 2:fl_line_style(FL_DASH);break;
}; 


if ((freqx>0.0)&&(freqx<1.0))
   fl_line(x()+(int) (freqx*w()),y(),
   x()+(int) (freqx*w()),y()+h());} {}
  }
  Function {draw()} {open
  } {
    code {int ox=x(),oy=y(),lx=w(),ly=h(),i,ix,iy,oiy;
float freqx;

fl_color(FL_DARK1);
fl_rectf(ox,oy,lx,ly);


//draw the lines
fl_color(FL_GRAY);

fl_line_style(FL_SOLID);
fl_line(ox+2,oy+ly/2,ox+lx-2,oy+ly/2);

freqx=respar->getfreqpos(1000.0);
if ((freqx>0.0)&&(freqx<1.0))
   fl_line(ox+(int) (freqx*lx),oy,
    ox+(int) (freqx*lx),oy+ly);

for (i=1;i<10;i++){
   if(i==1){
     draw_freq_line(i*100.0,0);
     draw_freq_line(i*1000.0,0);
   }else 
    if (i==5){
      draw_freq_line(i*100.0,2);
      draw_freq_line(i*1000.0,2);
    }else{
      draw_freq_line(i*100.0,1);
      draw_freq_line(i*1000.0,1);
    };
};

draw_freq_line(10000.0,0);
draw_freq_line(20000.0,1);

fl_line_style(FL_DOT);
int GY=10;if (ly<GY*3) GY=-1;
for (i=1;i<GY;i++){
   int tmp=(int)(ly/(float)GY*i);
   fl_line(ox+2,oy+tmp,ox+lx-2,oy+tmp);
};



//draw the data
fl_color(FL_RED);
fl_line_style(FL_SOLID,2);
fl_begin_line();
oiy=(int)(respar->Prespoints[0]/128.0*ly);
for (i=1;i<N_RES_POINTS;i++){
   ix=(int)(i*1.0/N_RES_POINTS*lx);
   iy=(respar->Prespoints[i]/128.0*ly);
   fl_vertex(ox+ix,oy+ly-oiy);
   oiy=iy;
};
fl_end_line();
fl_line_style(FL_SOLID,0);} {selected
    }
  }
  Function {handle(int event)} {return_type int
  } {
    code {int x_=Fl::event_x()-x();
int y_=Fl::event_y()-y();
if ( (x_>=0)&&(x_<w()) && (y_>=0)&&(y_<h())){
   khzvalue->value(respar->getfreqx(x_*1.0/w())/1000.0);
   dbvalue->value((1.0-y_*2.0/h())*respar->PmaxdB);
};

if ((event==FL_PUSH)||(event==FL_DRAG)){
  int leftbutton=1;
  if (Fl::event_button()==FL_RIGHT_MOUSE) leftbutton=0;
  if (x_<0) x_=0;
  if (y_<0) y_=0;
  if (x_>=w()) x_=w();
  if (y_>=h()-1) y_=h()-1;

  if ((oldx<0)||(oldx==x_)){
    int sn=(int)(x_*1.0/w()*N_RES_POINTS);
    int sp=127-(int)(y_*1.0/h()*127);
    if (leftbutton!=0) respar->setpoint(sn,sp);
        else respar->setpoint(sn,64);
  } else {
    int x1=oldx;
    int x2=x_;
    int y1=oldy;
    int y2=y_;
    if (oldx>x_){
      x1=x_;y1=y_;
      x2=oldx;y2=oldy;
    };
   for (int i=0;i<x2-x1;i++){
      int sn=(int)((i+x1)*1.0/w()*N_RES_POINTS);
      float yy=(y2-y1)*1.0/(x2-x1)*i;
      int sp=127-(int)((y1+yy)/h()*127);
      if (leftbutton!=0) respar->setpoint(sn,sp);
         else respar->setpoint(sn,64);
    };
  };

  oldx=x_;oldy=y_;
  redraw();
};

if (event==FL_RELEASE) {
	oldx=-1;
	if (cbwidget!=NULL) {
		cbwidget->do_callback();
		if (applybutton!=NULL) {
			applybutton->color(FL_RED);
			applybutton->redraw();

		};
	};
};

return(1);} {}
  }
  Function {setcbwidget(Fl_Widget *cbwidget,Fl_Widget *applybutton)} {} {
    code {this->cbwidget=cbwidget;
this->applybutton=applybutton;} {}
  }
  decl {Fl_Value_Output *khzvalue;} {}
  decl {Fl_Value_Output *dbvalue;} {}
  decl {Resonance *respar;} {}
  decl {int oldx,oldy;} {}
  decl {float khzval;} {public
  }
  decl {Fl_Widget *cbwidget,*applybutton;} {}
} 

class ResonanceUI {open : PresetsUI_
} {
  Function {make_window()} {open
  } {
    Fl_Window resonancewindow {
      label Resonance open
      xywh {120 70 780 305} type Double hide
    } {
      Fl_Value_Output khzvalue {
        label kHz
        xywh {415 264 45 18} labelsize 12 align 8 minimum 0.001 maximum 48 step 0.01 textfont 1 textsize 12
        code0 {//this widget must be before the calling widgets}
      }
      Fl_Value_Output dbvalue {
        label dB
        xywh {415 282 45 18} labelsize 12 align 8 minimum -150 maximum 150 step 0.1 textfont 1 textsize 12
        code0 {//this widget must be before the calling widgets}
      }
      Fl_Group {} {
        xywh {6 5 768 256} box BORDER_BOX
        code0 {rg=new ResonanceGraph(o->x(),o->y(),o->w(),o->h(),"");}
        code1 {rg->init(respar,khzvalue,dbvalue);}
        code2 {rg->show();}
      } {}
      Fl_Button {} {
        label Close
        callback {resonancewindow->hide();}
        xywh {690 283 84 17} box THIN_UP_BOX
      }
      Fl_Button {} {
        label Zero
        callback {for (int i=0;i<N_RES_POINTS;i++) 
   respar->setpoint(i,64);
resonancewindow->redraw();
redrawPADnoteApply();}
        tooltip {Clear the resonance function} xywh {491 264 66 15} box THIN_UP_BOX labelfont 1 labelsize 12
      }
      Fl_Button {} {
        label Smooth
        callback {respar->smooth();
resonancewindow->redraw();
redrawPADnoteApply();}
        tooltip {Smooth the resonance function} xywh {491 282 66 18} box THIN_UP_BOX labelfont 1 labelsize 12
      }
      Fl_Check_Button enabled {
        label Enable
        callback {respar->Penabled=(int) o->value();
redrawPADnoteApply();}
        xywh {6 270 78 27} box THIN_UP_BOX down_box DOWN_BOX
        code0 {o->value(respar->Penabled);}
      }
      Fl_Roller maxdb {
        callback {maxdbvo->value(o->value());
respar->PmaxdB=(int) o->value();
redrawPADnoteApply();}
        xywh {90 282 84 15} type Horizontal minimum 1 maximum 90 step 1 value 30
      }
      Fl_Value_Output maxdbvo {
        label {Max.}
        callback {o->value(respar->PmaxdB);}
        tooltip {The Maximum amplitude (dB)} xywh {126 264 24 18} labelsize 12 minimum 1 maximum 127 step 1 value 30 textfont 1 textsize 12
        code0 {o->value(respar->PmaxdB);}
      }
      Fl_Box {} {
        label dB
        xywh {150 264 24 18}
      }
      Fl_Value_Output centerfreqvo {
        label {C.f.}
        callback {o->value(respar->getcenterfreq()/1000.0);}
        tooltip {Center Frequency (kHz)} xywh {210 264 33 18} labelsize 12 when 3 minimum 1 maximum 10 step 0.01 value 1 textfont 1 textsize 12
        code0 {o->value(respar->getcenterfreq()/1000.0);}
      }
      Fl_Value_Output octavesfreqvo {
        label {Oct.}
        callback {o->value(respar->getoctavesfreq());}
        tooltip {No. of octaves} xywh {210 282 33 18} labelsize 12 when 3 minimum 1 maximum 127 step 1 value 30 textfont 1 textsize 12
        code0 {o->value(respar->getoctavesfreq());}
      }
      Fl_Button {} {
        label RND2
        callback {respar->randomize(1);
resonancewindow->redraw();
redrawPADnoteApply();}
        tooltip {Randomize the resonance function} xywh {566 276 42 12} box THIN_UP_BOX labelfont 1 labelsize 10
      }
      Fl_Button {} {
        label RND1
        callback {respar->randomize(0);
resonancewindow->redraw();
redrawPADnoteApply();}
        tooltip {Randomize the resonance function} xywh {566 264 42 12} box THIN_UP_BOX labelfont 1 labelsize 10
      }
      Fl_Button {} {
        label RND3
        callback {respar->randomize(2);
resonancewindow->redraw();
redrawPADnoteApply();}
        tooltip {Randomize the resonance function} xywh {566 288 42 12} box THIN_UP_BOX labelfont 1 labelsize 10
      }
      Fl_Check_Button p1st {
        label {P.1st}
        callback {respar->Pprotectthefundamental=(int) o->value();
redrawPADnoteApply();}
        tooltip {Protect the fundamental frequency (do not damp the first harmonic)} xywh {365 285 45 15} down_box DOWN_BOX labelsize 10
        code0 {o->value(respar->Pprotectthefundamental);}
      }
      Fl_Button {} {
        label InterpP
        callback {int type;
if (Fl::event_button()==FL_LEFT_MOUSE) type=0;
       else type=1;
respar->interpolatepeaks(type);
resonancewindow->redraw();
redrawPADnoteApply();}
        tooltip {Interpolate the peaks} xywh {365 265 46 15} box THIN_UP_BOX labelfont 1 labelsize 10
      }
      Fl_Dial centerfreq {
        label {C.f.}
        callback {respar->Pcenterfreq=(int)o->value();
centerfreqvo->do_callback();
rg->redraw();
redrawPADnoteApply();}
        xywh {245 265 30 30} box ROUND_UP_BOX labelsize 10 maximum 127 step 1
        code0 {o->value(respar->Pcenterfreq);}
        class WidgetPDial
      }
      Fl_Dial octavesfreq {
        label {Oct.}
        callback {respar->Poctavesfreq=(int)o->value();
octavesfreqvo->do_callback();
rg->redraw();
redrawPADnoteApply();}
        xywh {280 265 30 30} box ROUND_UP_BOX labelsize 10 maximum 127 step 1
        code0 {o->value(respar->Poctavesfreq);}
        class WidgetPDial
      }
      Fl_Button {} {
        label C
        callback {presetsui->copy(respar);}
        xywh {625 275 25 15} box THIN_UP_BOX color 179 labelfont 1 labelsize 11 labelcolor 55
      }
      Fl_Button {} {
        label P
        callback {presetsui->paste(respar,this);}
        xywh {655 275 25 15} box THIN_UP_BOX color 179 labelfont 1 labelsize 11 labelcolor 55
      }
      Fl_Button applybutton {
        label Apply
        callback {applybutton->color(FL_GRAY);
applybutton->redraw();
if (cbapplywidget!=NULL) {
	cbapplywidget->do_callback();
	cbapplywidget->color(FL_GRAY);
	cbapplywidget->redraw();
};}
        xywh {690 265 85 15} box THIN_UP_BOX labelfont 1 labelsize 11
      }
    }
  }
  Function {ResonanceUI(Resonance *respar_)} {} {
    code {respar=respar_;
cbwidget=NULL;
cbapplywidget=NULL;
make_window();
applybutton->hide();} {}
  }
  Function {~ResonanceUI()} {} {
    code {resonancewindow->hide();} {}
  }
  Function {redrawPADnoteApply()} {} {
    code {if (cbwidget!=NULL) {
	cbwidget->do_callback();
	applybutton->color(FL_RED);
	applybutton->redraw();
};} {}
  }
  Function {setcbwidget(Fl_Widget *cbwidget,Fl_Widget *cbapplywidget)} {} {
    code {this->cbwidget=cbwidget;
this->cbapplywidget=cbapplywidget;
rg->setcbwidget(cbwidget,applybutton);
applybutton->show();} {}
  }
  Function {refresh()} {} {
    code {redrawPADnoteApply();

enabled->value(respar->Penabled);

maxdb->value(respar->PmaxdB);
maxdbvo->value(respar->PmaxdB);

centerfreqvo->value(respar->getcenterfreq()/1000.0);
octavesfreqvo->value(respar->getoctavesfreq());

centerfreq->value(respar->Pcenterfreq);
octavesfreq->value(respar->Poctavesfreq);

p1st->value(respar->Pprotectthefundamental);

rg->redraw();} {}
  }
  decl {Resonance *respar;} {public
  }
  decl {ResonanceGraph *rg;} {}
  decl {Fl_Widget *cbwidget,*cbapplywidget;} {}
} 
